Functionalized Cortical Bone‐Inspired Composites Adapt to the Mechanical and Biological Properties of the Edentulous Area to Resist Fretting Wear

@article{Wang2023FunctionalizedCB,
  title={Functionalized Cortical Bone‐Inspired Composites Adapt to the Mechanical and Biological Properties of the Edentulous Area to Resist Fretting Wear},
  author={Zhongyi Wang and Qianrong Xiang and Xin Tan and Yadong Zhang and Haoqi Zhu and Jiangfan Pu and Jikui Sun and Manlin Sun and Yingkai Wang and Qiang Wei and Haiyang Yu},
  journal={Advanced Science},
  year={2023},
  volume={10},
  url={https://api.semanticscholar.org/CorpusID:256826034}
}
The authors explore functionalized cortical bone‐inspired composites (FCBIC) with a hierarchical structure at multiple scales, that exhibit good mechanical and biological adaptivity with cortical bone, and proposes the biological–mechanical co‐operation coefficient to describe the coupling between these two factors for designing the optimized dental implants.
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16 Citations
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